Joint Power Control and Scheduling for High-Dynamic Multi-Hop UAV Communication: A Robust Mean Field Game

Tong Li; Chungang Yang; Lizhong Chang; Lingli Yang; Peng Gong; Haoxiang Dai; Jingyu Shen; Meng Wen; Zhu Han

doi:10.1109/ACCESS.2021.3113909

Joint Power Control and Scheduling for High-Dynamic Multi-Hop UAV Communication: A Robust Mean Field Game

Tong Li, Chungang Yang, Lizhong Chang, Lingli Yang, Peng Gong, Haoxiang Dai, Jingyu Shen, Meng Wen^*, Zhu Han

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

As an extensive prospect in communication technology, multi-hop unmanned aerial vehicle (UAV) faces some challenges as well. How to ensure the availability of time slots in high dynamic scenarios and the rationality and robustness of power allocation in massive scenarios remains to be resolved. In this paper, we propose a robust mean field game (MFG) framework to manage time slot resources and power resources. On the one hand, this framework can predict the potential conflicts of time slots and avoid them in time. On the other hand, it can well adapt to the massive scenarios with complex interference, in order to realize power control. The simulation results show that the robust MFG-based resource management scheme can not only reduce the probability of packet collision and packet loss, but also improve communication energy efficiency (EE) with better robustness.

Original language	English
Pages (from-to)	130649-130664
Number of pages	16
Journal	IEEE Access
Volume	9
DOIs	https://doi.org/10.1109/ACCESS.2021.3113909
Publication status	Published - 2021

Keywords

Cross-layer optimization
mean field game
multi-hop UAV communication
resource management
robust control

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/ACCESS.2021.3113909

Cite this

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title = "Joint Power Control and Scheduling for High-Dynamic Multi-Hop UAV Communication: A Robust Mean Field Game",

abstract = "As an extensive prospect in communication technology, multi-hop unmanned aerial vehicle (UAV) faces some challenges as well. How to ensure the availability of time slots in high dynamic scenarios and the rationality and robustness of power allocation in massive scenarios remains to be resolved. In this paper, we propose a robust mean field game (MFG) framework to manage time slot resources and power resources. On the one hand, this framework can predict the potential conflicts of time slots and avoid them in time. On the other hand, it can well adapt to the massive scenarios with complex interference, in order to realize power control. The simulation results show that the robust MFG-based resource management scheme can not only reduce the probability of packet collision and packet loss, but also improve communication energy efficiency (EE) with better robustness.",

keywords = "Cross-layer optimization, mean field game, multi-hop UAV communication, resource management, robust control",

author = "Tong Li and Chungang Yang and Lizhong Chang and Lingli Yang and Peng Gong and Haoxiang Dai and Jingyu Shen and Meng Wen and Zhu Han",

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year = "2021",

doi = "10.1109/ACCESS.2021.3113909",

language = "English",

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T1 - Joint Power Control and Scheduling for High-Dynamic Multi-Hop UAV Communication

T2 - A Robust Mean Field Game

AU - Li, Tong

AU - Yang, Chungang

AU - Chang, Lizhong

AU - Yang, Lingli

AU - Gong, Peng

AU - Dai, Haoxiang

AU - Shen, Jingyu

AU - Wen, Meng

AU - Han, Zhu

PY - 2021

Y1 - 2021

N2 - As an extensive prospect in communication technology, multi-hop unmanned aerial vehicle (UAV) faces some challenges as well. How to ensure the availability of time slots in high dynamic scenarios and the rationality and robustness of power allocation in massive scenarios remains to be resolved. In this paper, we propose a robust mean field game (MFG) framework to manage time slot resources and power resources. On the one hand, this framework can predict the potential conflicts of time slots and avoid them in time. On the other hand, it can well adapt to the massive scenarios with complex interference, in order to realize power control. The simulation results show that the robust MFG-based resource management scheme can not only reduce the probability of packet collision and packet loss, but also improve communication energy efficiency (EE) with better robustness.

AB - As an extensive prospect in communication technology, multi-hop unmanned aerial vehicle (UAV) faces some challenges as well. How to ensure the availability of time slots in high dynamic scenarios and the rationality and robustness of power allocation in massive scenarios remains to be resolved. In this paper, we propose a robust mean field game (MFG) framework to manage time slot resources and power resources. On the one hand, this framework can predict the potential conflicts of time slots and avoid them in time. On the other hand, it can well adapt to the massive scenarios with complex interference, in order to realize power control. The simulation results show that the robust MFG-based resource management scheme can not only reduce the probability of packet collision and packet loss, but also improve communication energy efficiency (EE) with better robustness.

KW - Cross-layer optimization

KW - mean field game

KW - multi-hop UAV communication

KW - resource management

KW - robust control

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EP - 130664

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JF - IEEE Access

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Joint Power Control and Scheduling for High-Dynamic Multi-Hop UAV Communication: A Robust Mean Field Game

Abstract

Keywords

UN SDGs

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